Floating base vector sensor

What is claimed is: 1. A vector sensor, comprising: a base; a flow meter coupled to the base, wherein the flow meter is configured to detect a direction of arrival (DOA) of an acoustic signal, and wherein the flow meter comprises a two-dimensional mesh having a micro or nano scale unit mesh size; a retaining thread coupled to the base; and an anchor device, coupled to the retaining thread, configured to receive an incoming signal corresponding to the detected DOA of the acoustic signal, and transmit a signal corresponding to the detected DOA of the acoustic signal to an external device. 2. The vector sensor of claim 1 , wherein the anchor device further comprises: a battery; a transmitter; and a controller. 3. The vector sensor of claim 1 , wherein the vector sensor further comprises: an optical link coupled to the anchor device, wherein the anchor device is configured to receive the incoming signal via the optical link. 4. The vector sensor of claim 1 , wherein the anchor device is configured to determine, based on the incoming signal, a relative motion of the base with respect to a surrounding environment. 5. The vector sensor of claim 1 , wherein the two-dimensional mesh has a micro scale unit mesh size. 6. The vector sensor of claim 1 , wherein the two-dimensional mesh has a nano scale unit mesh size. 7. The vector sensor of claim 1 , further comprising a plurality of flow meters, including the flow meter, coupled to the base. 8. The vector sensor of claim 7 , wherein the plurality of flow meters comprise four flow meters. 9. The vector sensor of claim 1 , wherein the flow meter is configured to detect a flow passing through the two-dimensional mesh. 10. The vector sensor of claim 9 , wherein the flow meter further comprises an optical link, wherein the optical link is configured to generate a signal based on the detected flow based on a deformation of the two dimensional mesh initiated by the flow. 11. The vector sensor of claim 10 , wherein the two-dimensional mesh comprises a plurality of fibers, and wherein a length and a width of a cross section of a fiber in the plurality of fibers is less than a viscous penetration depth in a medium in which the base is submerged for a frequency of interest. 12. The vector sensor of claim 9 , further comprising a velocimeter coupled to the two-dimensional mesh. 13. The vector sensor of claim 1 , wherein the base has a non-neutral buoyancy. 14. A method, comprising: detecting, using a flow meter having a two-dimensional mesh of a micro or nano scale unit mesh size, a direction of arrival (DOA) of an acoustic signal; receiving an incoming signal corresponding to the detected DOA of the acoustic signal; and transmitting a signal corresponding to the detected DOA of the acoustic signal to an external device. 15. The method of claim 14 , wherein detecting the DOA of the acoustic signal comprises detecting a flow passing through the two-dimensional mesh. 16. The method of claim 15 , wherein transmitting the signal corresponding to the detected DOA of the acoustic signal to the external device comprises generating a signal based on the detected flow based on a deformation of the two dimensional mesh initiated by the flow. 17. A vector sensor, comprising: a flow meter, wherein the flow meter is configured to detect a direction of arrival (DOA) of an acoustic signal, and wherein the flow meter comprises a two-dimensional mesh having a micro or nano scale unit mesh size; and a device, coupled to the flow meter, configured to: receive an incoming signal corresponding to the detected DOA of the acoustic signal, and transmit a signal corresponding to the detected DOA of the acoustic signal to an external device. 18. The vector sensor of claim 17 , wherein the two dimensional mesh has a micro scale unit mesh size. 19. The vector sensor of claim 18 , wherein the two-dimensional mesh has a nano scale unit mesh size. 20. The vector sensor of claim 19 , wherein the flow meter is configured to detect a flow passing through the two-dimensional mesh.